FR3128846A1 - ELECTRONIC CONTROL DEVICE AND POWER SUPPLY INPUT CIRCUIT - Google Patents

Abstract

An electronic control device includes a plurality of circuit blocks and a power supply input circuit. The power supply input circuit provides electrical power supplied from a first external power supply to the plurality of circuit blocks. The power supply input circuit includes a power supply input terminal, a power supply input line, a plurality of branch lines, a first reverse current prevention element and a second reverse current prevention. The plurality of branch lines are each connected between a second end portion of the power supply input line and a corresponding one of the plurality of circuit blocks. The first reverse current prevention element is provided on the power supply input line. The second reverse current prevention element is provided on the first branch line. The first branch line is connected to the first circuit block. Fig. 1

Description

ELECTRONIC CONTROL DEVICE AND POWER SUPPLY INPUT CIRCUIT

This disclosure relates to an electronic control device and power supply input circuit.

In a prior art in-vehicle electronic control device, in some cases, a reverse current interrupting element remains closed even when a voltage of an in-vehicle battery serving as an external power supply is momentarily reduced . Therefore, in order to prevent an output voltage of the reverse current interrupting element from being reduced with the voltage of the on-vehicle battery when the voltage of the on-vehicle battery is momentarily reduced, a capacitor is connected to an output side of the reverse current interrupting element (see, for example, Japanese Patent Application Laid-Open No. 2015-140094).

In the prior art in-vehicle electronic control device described above, in order to maintain the output voltage of the reverse current interrupting element until the reduced voltage of the in-vehicle battery is returned to a normal voltage, it is necessary that the capacitor on the output side of the reverse current interrupting element be a large capacity capacitor. As a result, there has arisen a problem that the capacitor on the output side of the reverse current interrupting element increases in size, as a result of which the size of the device increases.

This disclosure has been made in order to solve the problem mentioned above, and is intended to provide an electronic control device and a power supply input circuit with which an increase in the size of the electronic control device can be removed.

According to at least one embodiment of the invention, there is provided an electronic control device comprising: a plurality of circuit blocks; and a power supply input circuit configured to supply electrical power supplied from an external power supply to the plurality of circuit blocks, the plurality of circuit blocks including a first type block and a block of the second type, and the power supply input circuit comprises: a power supply input terminal to be connected to the external power supply; a power supply input line including a first end portion connected to the power supply input terminal, and a second end portion which is an end portion on an opposite side of the first portion end; a plurality of branch lines connected between the second end portion and each of the plurality of circuit blocks; a first reverse current preventing element which is provided on the power supply input line and is configured to prevent a reverse current from flowing; and a second reverse current preventing element which is provided on a branch line among the plurality of branch lines, which is connected to the first type block, and is configured to prevent a reverse current from flowing.

According to the electronic control device and the power supply input circuit of the at least one embodiment of this disclosure, an increase in the size of the electronic control device can be suppressed.

Fig. 1

is a configuration diagram for illustrating an electronic control device according to a first embodiment of this disclosure;

Fig. 2

is a configuration diagram for illustrating an electronic control device serving as a comparative example;

Fig. 3

is a timing diagram to illustrate an operation of a power supply input circuit of the and an operation of a power supply input circuit of the ;

Fig. 4

is a configuration diagram for illustrating an electronic control device according to a second embodiment of this disclosure;

Fig. 5

is a configuration diagram for illustrating an electronic control device according to a third embodiment of this disclosure.

Claims (7)

Electronic control device (10), comprising:
a plurality of circuit blocks (40, 50); And
a power supply input circuit (20) configured to supply electrical power supplied from an external power supply (31) to the plurality of circuit blocks (40, 50),
the plurality of circuit blocks (40, 50) including a first type block (40) and a second type block (50), and
the power supply input circuit (20) comprising:
a power supply input terminal (21) to be connected to the external power supply (31);
a power supply input line (22) comprising a first end part (22a) connected to the power supply input terminal (21), and a second end part (22b) which is a end portion on an opposite side of the first end portion (22a);
a plurality of branch lines (23a, 23b) connected between the second end portion (22b) and each of the plurality of circuit blocks (40, 50);
a first reverse current preventing element (24) which is provided on the power supply input line (22) and is configured to prevent a reverse current from flowing; And
a second reverse current preventing element (25) which is provided on a branch line among the plurality of branch lines (23a, 23b), which is connected to the first type block (40), and is configured to prevent a reverse current to flow. Electronic control device (10) according to claim 1,
the first type block (40) comprising a first type internal power supply (42) configured to generate a first output voltage (Vout1) through the use of electrical energy supplied from the external power supply (31),
the second type block (50) comprising a second type internal power supply (52) configured to generate a second output voltage (Vout2) through the use of electrical energy supplied from the external power supply (31), and
a lower limit value (Vmin2) of an input voltage which enables the second type internal power supply (52) to normally generate the second output voltage (Vout2) is lower than a lower limit value (Vmin1) of an input voltage which allows the first type internal power supply (42) to normally generate the first output voltage (Vout1). Electronic control device (10) according to claim 1, a second load current (IL2) which is a load current passing through the second type block (50) being greater than a first load current (IL1) which is the load current flowing through the first type block (40). Electronic control device (10) according to claim 1,
the first type block (40) comprising a first type internal power supply (42) configured to generate an output voltage through the use of electrical energy supplied from the external power supply (31), and a load connected to an output portion of the first type internal power supply (42), and
the second type block (50) comprising a load, and has no internal power supply. A power supply input circuit (20), comprising:
a power supply input terminal (21) to be connected to an external power supply (31);
a power supply input line (22) comprising a first end part (22a) connected to the power supply input terminal (21), and a second end part (22b) which is a end portion on an opposite side of the first end portion (22a);
a plurality of branch lines (23a, 23b) connected between the second end portion (22b) and each of a plurality of circuit blocks (40, 50);
a first reverse current preventing element (24) which is provided on the power supply input line (22) and is configured to prevent a reverse current from flowing; And
at least a second reverse current preventing element (25) which is provided on a corresponding one of the plurality of branch lines (23a) which is connected to a first type block (40) belonging to the plurality of circuit blocks (40, 50), and is configured to prevent reverse current from flowing. Electronic control device (10), comprising:
a plurality of circuit blocks; And
a power supply input circuit (20) configured to supply electrical power supplied from an external power supply (31) to the plurality of circuit blocks (40, 50),
the power supply input circuit (20) comprising:
a power supply input terminal (21) to be connected to the external power supply (31);
a power supply input line (22) comprising a first end part (22a) connected to the power supply input terminal (21), and a second end part (22b) which is a end portion on an opposite side of the first end portion (22a);
a plurality of branch lines (23a, 23b) connected between the second end portion (22b) and each of the plurality of circuit blocks (40, 50); And
a plurality of reverse current preventing elements (27, 28) which are provided on the plurality of branch lines (23a, 23b), respectively, and are configured to prevent a reverse current from flowing. A power supply input circuit (20), comprising:
a power supply input terminal (21) to be connected to an external power supply (31);
a power supply input line (22) comprising a first end part (22a) connected to the power supply input terminal (21), and a second end part (22b) which is a end portion on an opposite side of the first end portion (22a);
a plurality of branch lines (23a, 23b) connected between the second end portion (22b) and each of a plurality of circuit blocks (40, 50); And
a plurality of reverse current preventing elements (27, 28) which are provided on the plurality of branch lines (23a, 23b), respectively, and are configured to prevent a reverse current from flowing.